rockbox/apps/tagtree.c
Christian Soffke 8f6d0efd71 tagtree: Delay showing search progress when ramcache is enabled
The disk doesn't need to spin up when the
database is in RAM. Results are usually returned
without any noticeable delay, so the splash  only
creates distraction.

Change-Id: I04e5b7d2e00f045143dd86e0561091be3d8f9724
2022-08-19 00:27:34 -04:00

2281 lines
57 KiB
C

/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2005 by Miika Pekkarinen
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
/**
* Basic structure on this file was copied from dbtree.c and modified to
* support the tag cache interface.
*/
/*#define LOGF_ENABLE*/
#include <stdio.h>
#include <stdlib.h>
#include "string-extra.h"
#include "config.h"
#include "system.h"
#include "kernel.h"
#include "splash.h"
#include "icons.h"
#include "tree.h"
#include "action.h"
#include "settings.h"
#include "tagcache.h"
#include "tagtree.h"
#include "lang.h"
#include "logf.h"
#include "playlist.h"
#include "keyboard.h"
#include "gui/list.h"
#include "core_alloc.h"
#include "yesno.h"
#include "misc.h"
#include "filetypes.h"
#include "audio.h"
#include "appevents.h"
#include "storage.h"
#include "dir.h"
#include "playback.h"
#include "strnatcmp.h"
#include "panic.h"
#define str_or_empty(x) (x ? x : "(NULL)")
#define TAGNAVI_DEFAULT_CONFIG ROCKBOX_DIR "/tagnavi.config"
#define TAGNAVI_USER_CONFIG ROCKBOX_DIR "/tagnavi_user.config"
static int tagtree_play_folder(struct tree_context* c);
/* this needs to be same size as struct entry (tree.h) and name needs to be
* the first; so that they're compatible enough to walk arrays of both
* derefencing the name member*/
struct tagentry {
char* name;
int newtable;
int extraseek;
};
static struct tagentry* tagtree_get_entry(struct tree_context *c, int id);
#define SEARCHSTR_SIZE 256
enum table {
ROOT = 1,
NAVIBROWSE,
ALLSUBENTRIES,
PLAYTRACK,
};
static const struct id3_to_search_mapping {
char *string;
size_t id3_offset;
} id3_to_search_mapping[] = {
{ "", 0 }, /* offset n/a */
{ "#directory#", 0 }, /* offset n/a */
{ "#title#", offsetof(struct mp3entry, title) },
{ "#artist#", offsetof(struct mp3entry, artist) },
{ "#album#", offsetof(struct mp3entry, album) },
{ "#genre#", offsetof(struct mp3entry, genre_string) },
{ "#composer#", offsetof(struct mp3entry, composer) },
{ "#albumartist#", offsetof(struct mp3entry, albumartist) },
};
enum variables {
var_sorttype = 100,
var_limit,
var_strip,
var_menu_start,
var_include,
var_rootmenu,
var_format,
menu_next,
menu_load,
menu_reload,
};
/* Capacity 10 000 entries (for example 10k different artists) */
#define UNIQBUF_SIZE (64*1024)
static uint32_t uniqbuf[UNIQBUF_SIZE / sizeof(uint32_t)];
#define MAX_TAGS 5
#define MAX_MENU_ID_SIZE 32
#define RELOAD_TAGTREE (-1024)
static bool sort_inverse;
/*
* "%3d. %s" autoscore title %sort = "inverse" %limit = "100"
*
* valid = true
* formatstr = "%-3d. %s"
* tags[0] = tag_autoscore
* tags[1] = tag_title
* tag_count = 2
*
* limit = 100
* sort_inverse = true
*/
struct display_format {
char name[32];
struct tagcache_search_clause *clause[TAGCACHE_MAX_CLAUSES];
int clause_count;
char *formatstr;
int group_id;
int tags[MAX_TAGS];
int tag_count;
int limit;
int strip;
bool sort_inverse;
};
static struct display_format *formats[TAGMENU_MAX_FMTS];
static int format_count;
struct menu_entry {
char name[64];
int type;
struct search_instruction {
char name[64];
int tagorder[MAX_TAGS];
int tagorder_count;
struct tagcache_search_clause *clause[MAX_TAGS][TAGCACHE_MAX_CLAUSES];
int format_id[MAX_TAGS];
int clause_count[MAX_TAGS];
int result_seek[MAX_TAGS];
} si;
int link;
};
struct menu_root {
char title[64];
char id[MAX_MENU_ID_SIZE];
int itemcount;
struct menu_entry *items[TAGMENU_MAX_ITEMS];
};
struct match
{
const char* str;
int symbol;
};
/* Statusbar text of the current view. */
static char current_title[MAX_TAGS][128];
static struct menu_root * menus[TAGMENU_MAX_MENUS];
static struct menu_root * menu;
static struct search_instruction *csi;
static const char *strp;
static int menu_count;
static int rootmenu;
static int current_offset;
static int current_entry_count;
static struct tree_context *tc;
/* a few memory alloc helper */
static int tagtree_handle, lock_count;
static size_t tagtree_bufsize, tagtree_buf_used;
#define UPDATE(x, y) { x = (typeof(x))((char*)(x) + (y)); }
static int move_callback(int handle, void* current, void* new)
{
(void)handle; (void)current; (void)new;
ptrdiff_t diff = new - current;
if (lock_count > 0)
return BUFLIB_CB_CANNOT_MOVE;
if (menu)
UPDATE(menu, diff);
if (csi)
UPDATE(csi, diff);
/* loop over menus */
for(int i = 0; i < menu_count; i++)
{
struct menu_root* menu = menus[i];
/* then over the menu_entries of a menu */
for(int j = 0; j < menu->itemcount; j++)
{
struct menu_entry* mentry = menu->items[j];
/* then over the search_instructions of each menu_entry */
for(int k = 0; k < mentry->si.tagorder_count; k++)
{
for(int l = 0; l < mentry->si.clause_count[k]; l++)
{
if(mentry->si.clause[k][l]->str)
UPDATE(mentry->si.clause[k][l]->str, diff);
UPDATE(mentry->si.clause[k][l], diff);
}
}
UPDATE(menu->items[j], diff);
}
UPDATE(menus[i], diff);
}
/* now the same game for formats */
for(int i = 0; i < format_count; i++)
{
for(int j = 0; j < formats[i]->clause_count; j++)
{
UPDATE(formats[i]->clause[j]->str, diff);
UPDATE(formats[i]->clause[j], diff);
}
if (formats[i]->formatstr)
UPDATE(formats[i]->formatstr, diff);
UPDATE(formats[i], diff);
}
return BUFLIB_CB_OK;
}
#undef UPDATE
static inline void tagtree_lock(void)
{
lock_count++;
}
static inline void tagtree_unlock(void)
{
lock_count--;
}
static struct buflib_callbacks ops = {
.move_callback = move_callback,
.shrink_callback = NULL,
};
static void* tagtree_alloc(size_t size)
{
size = ALIGN_UP(size, sizeof(void*));
if (size > (tagtree_bufsize - tagtree_buf_used))
return NULL;
char* buf = core_get_data(tagtree_handle) + tagtree_buf_used;
tagtree_buf_used += size;
return buf;
}
static void* tagtree_alloc0(size_t size)
{
void* ret = tagtree_alloc(size);
if (ret)
memset(ret, 0, size);
return ret;
}
static char* tagtree_strdup(const char* buf)
{
size_t len = strlen(buf) + 1;
char* dest = tagtree_alloc(len);
if (dest)
strcpy(dest, buf);
return dest;
}
/* save to call without locking */
static int get_token_str(char *buf, int size)
{
/* Find the start. */
while (*strp != '"' && *strp != '\0')
strp++;
if (*strp == '\0' || *(++strp) == '\0')
return -1;
/* Read the data. */
while (*strp != '"' && *strp != '\0' && --size > 0)
*(buf++) = *(strp++);
*buf = '\0';
if (*strp != '"')
return -2;
strp++;
return 0;
}
static int get_tag(int *tag)
{
static const struct match get_tag_match[] =
{
{"album", tag_album},
{"artist", tag_artist},
{"bitrate", tag_bitrate},
{"composer", tag_composer},
{"comment", tag_comment},
{"albumartist", tag_albumartist},
{"ensemble", tag_albumartist},
{"grouping", tag_grouping},
{"genre", tag_genre},
{"length", tag_length},
{"Lm", tag_virt_length_min},
{"Ls", tag_virt_length_sec},
{"Pm", tag_virt_playtime_min},
{"Ps", tag_virt_playtime_sec},
{"title", tag_title},
{"filename", tag_filename},
{"basename", tag_virt_basename},
{"tracknum", tag_tracknumber},
{"canonicalartist", tag_virt_canonicalartist},
{"discnum", tag_discnumber},
{"year", tag_year},
{"playcount", tag_playcount},
{"rating", tag_rating},
{"lastplayed", tag_lastplayed},
{"lastelapsed", tag_lastelapsed},
{"lastoffset", tag_lastoffset},
{"commitid", tag_commitid},
{"entryage", tag_virt_entryage},
{"autoscore", tag_virt_autoscore},
{"%sort", var_sorttype},
{"%limit", var_limit},
{"%strip", var_strip},
{"%menu_start", var_menu_start},
{"%include", var_include},
{"%root_menu", var_rootmenu},
{"%format", var_format},
{"->", menu_next},
{"==>", menu_load},
{"%reload", menu_reload}
};
char buf[128];
unsigned int i;
/* Find the start. */
while ((*strp == ' ' || *strp == '>') && *strp != '\0')
strp++;
if (*strp == '\0' || *strp == '?')
return 0;
for (i = 0; i < sizeof(buf)-1; i++)
{
if (*strp == '\0' || *strp == ' ')
break ;
buf[i] = *strp;
strp++;
}
buf[i] = '\0';
for (i = 0; i < ARRAYLEN(get_tag_match); i++)
{
if (!strcasecmp(buf, get_tag_match[i].str))
{
*tag = get_tag_match[i].symbol;
return 1;
}
}
logf("NO MATCH: %s\n", buf);
if (buf[0] == '?')
return 0;
return -1;
}
static int get_clause(int *condition)
{
/* one or two operator conditionals */
#define OPS2VAL(op1, op2) ((int)op1 << 8 | (int)op2)
#define CLAUSE(op1, op2, symbol) {OPS2VAL(op1, op2), symbol }
struct clause_symbol {int value;int symbol;};
static const struct clause_symbol get_clause_match[] =
{
CLAUSE('=', ' ', clause_is),
CLAUSE('=', '=', clause_is),
CLAUSE('!', '=', clause_is_not),
CLAUSE('>', ' ', clause_gt),
CLAUSE('>', '=', clause_gteq),
CLAUSE('<', ' ', clause_lt),
CLAUSE('<', '=', clause_lteq),
CLAUSE('~', ' ', clause_contains),
CLAUSE('!', '~', clause_not_contains),
CLAUSE('^', ' ', clause_begins_with),
CLAUSE('!', '^', clause_not_begins_with),
CLAUSE('$', ' ', clause_ends_with),
CLAUSE('!', '$', clause_not_ends_with),
CLAUSE('@', '^', clause_begins_oneof),
CLAUSE('@', '$', clause_ends_oneof),
CLAUSE('@', ' ', clause_oneof)
};
/* Find the start. */
while (*strp == ' ' && *strp != '\0')
strp++;
if (*strp == '\0')
return 0;
char op1 = strp[0];
char op2 = strp[1];
if (op2 == '"') /*allow " to end a single op conditional */
op2 = ' ';
int value = OPS2VAL(op1, op2);
for (unsigned int i = 0; i < ARRAYLEN(get_clause_match); i++)
{
if (value == get_clause_match[i].value)
{
*condition = get_clause_match[i].symbol;
return 1;
}
}
return 0;
#undef OPS2VAL
#undef CLAUSE
}
static bool read_clause(struct tagcache_search_clause *clause)
{
char buf[SEARCHSTR_SIZE];
unsigned int i;
if (get_tag(&clause->tag) <= 0)
return false;
if (get_clause(&clause->type) <= 0)
return false;
if (get_token_str(buf, sizeof buf) < 0)
return false;
for (i=0; i<ARRAYLEN(id3_to_search_mapping); i++)
{
if (!strcasecmp(buf, id3_to_search_mapping[i].string))
break;
}
if (i<ARRAYLEN(id3_to_search_mapping)) /* runtime search operand found */
{
clause->source = source_runtime+i;
clause->str = tagtree_alloc(SEARCHSTR_SIZE);
}
else
{
clause->source = source_constant;
clause->str = tagtree_strdup(buf);
}
if (!clause->str)
{
logf("tagtree failed to allocate %s", "clause string");
return false;
}
else if (TAGCACHE_IS_NUMERIC(clause->tag))
{
clause->numeric = true;
clause->numeric_data = atoi(clause->str);
}
else
clause->numeric = false;
logf("got clause: %d/%d [%s]", clause->tag, clause->type, clause->str);
return true;
}
static bool read_variable(char *buf, int size)
{
int condition;
if (!get_clause(&condition))
return false;
if (condition != clause_is)
return false;
if (get_token_str(buf, size) < 0)
return false;
return true;
}
/* "%3d. %s" autoscore title %sort = "inverse" %limit = "100" */
static int get_format_str(struct display_format *fmt)
{
int ret;
char buf[128];
int i;
memset(fmt, 0, sizeof(struct display_format));
if (get_token_str(fmt->name, sizeof fmt->name) < 0)
return -10;
/* Determine the group id */
fmt->group_id = 0;
for (i = 0; i < format_count; i++)
{
if (!strcasecmp(formats[i]->name, fmt->name))
{
fmt->group_id = formats[i]->group_id;
break;
}
if (formats[i]->group_id > fmt->group_id)
fmt->group_id = formats[i]->group_id;
}
if (i == format_count)
fmt->group_id++;
logf("format: (%d) %s", fmt->group_id, fmt->name);
if (get_token_str(buf, sizeof buf) < 0)
return -10;
fmt->formatstr = tagtree_strdup(buf);
while (fmt->tag_count < MAX_TAGS)
{
ret = get_tag(&fmt->tags[fmt->tag_count]);
if (ret < 0)
return -11;
if (ret == 0)
break;
switch (fmt->tags[fmt->tag_count]) {
case var_sorttype:
if (!read_variable(buf, sizeof buf))
return -12;
if (!strcasecmp("inverse", buf))
fmt->sort_inverse = true;
break;
case var_limit:
if (!read_variable(buf, sizeof buf))
return -13;
fmt->limit = atoi(buf);
break;
case var_strip:
if (!read_variable(buf, sizeof buf))
return -14;
fmt->strip = atoi(buf);
break;
default:
fmt->tag_count++;
}
}
return 1;
}
static int add_format(const char *buf)
{
if (format_count >= TAGMENU_MAX_FMTS)
{
logf("too many formats");
return -1;
}
strp = buf;
if (formats[format_count] == NULL)
formats[format_count] = tagtree_alloc0(sizeof(struct display_format));
if (!formats[format_count])
{
logf("tagtree failed to allocate %s", "format string");
return -2;
}
if (get_format_str(formats[format_count]) < 0)
{
logf("get_format_str() parser failed!");
if (formats[format_count])
memset(formats[format_count], 0, sizeof(struct display_format));
return -4;
}
while (*strp != '\0' && *strp != '?')
strp++;
if (*strp == '?')
{
int clause_count = 0;
strp++;
tagtree_lock();
while (1)
{
struct tagcache_search_clause *new_clause;
if (clause_count >= TAGCACHE_MAX_CLAUSES)
{
logf("too many clauses");
break;
}
new_clause = tagtree_alloc(sizeof(struct tagcache_search_clause));
if (!new_clause)
{
logf("tagtree failed to allocate %s", "search clause");
return -3;
}
formats[format_count]->clause[clause_count] = new_clause;
if (!read_clause(new_clause))
break;
clause_count++;
}
tagtree_unlock();
formats[format_count]->clause_count = clause_count;
}
format_count++;
return 1;
}
static int get_condition(struct search_instruction *inst)
{
struct tagcache_search_clause *new_clause;
int clause_count;
char buf[128];
switch (*strp)
{
case '=':
{
int i;
if (get_token_str(buf, sizeof buf) < 0)
return -1;
for (i = 0; i < format_count; i++)
{
if (!strcasecmp(formats[i]->name, buf))
break;
}
if (i == format_count)
{
logf("format not found: %s", buf);
return -2;
}
inst->format_id[inst->tagorder_count] = formats[i]->group_id;
return 1;
}
case '?':
case ' ':
case '&':
strp++;
return 1;
case '-':
case '\0':
return 0;
}
clause_count = inst->clause_count[inst->tagorder_count];
if (clause_count >= TAGCACHE_MAX_CLAUSES)
{
logf("Too many clauses");
return -2;
}
new_clause = tagtree_alloc0(sizeof(struct tagcache_search_clause));
if (!new_clause)
{
logf("tagtree failed to allocate %s", "search clause");
return -3;
}
inst->clause[inst->tagorder_count][clause_count] = new_clause;
if (*strp == '|')
{
strp++;
new_clause->type = clause_logical_or;
}
else
{
tagtree_lock();
bool ret = read_clause(new_clause);
tagtree_unlock();
if (!ret)
return -1;
}
inst->clause_count[inst->tagorder_count]++;
return 1;
}
/* example search:
* "Best" artist ? year >= "2000" & title !^ "crap" & genre = "good genre" \
* : album ? year >= "2000" : songs
* ^ begins with
* * contains
* $ ends with
*/
static bool parse_search(struct menu_entry *entry, const char *str)
{
int ret;
int type;
struct search_instruction *inst = &entry->si;
char buf[MAX_PATH];
int i;
strp = str;
/* Parse entry name */
if (get_token_str(entry->name, sizeof entry->name) < 0)
{
logf("No name found.");
return false;
}
/* Parse entry type */
if (get_tag(&entry->type) <= 0)
return false;
if (entry->type == menu_load)
{
if (get_token_str(buf, sizeof buf) < 0)
return false;
/* Find the matching root menu or "create" it */
for (i = 0; i < menu_count; i++)
{
if (!strcasecmp(menus[i]->id, buf))
{
entry->link = i;
return true;
}
}
if (menu_count >= TAGMENU_MAX_MENUS)
{
logf("max menucount reached");
return false;
}
/* Allocate a new menu unless link is found. */
menus[menu_count] = tagtree_alloc0(sizeof(struct menu_root));
if (!menus[menu_count])
{
logf("tagtree failed to allocate %s", "menu");
return false;
}
strlcpy(menus[menu_count]->id, buf, MAX_MENU_ID_SIZE);
entry->link = menu_count;
++menu_count;
return true;
}
if (entry->type != menu_next)
return false;
while (inst->tagorder_count < MAX_TAGS)
{
ret = get_tag(&inst->tagorder[inst->tagorder_count]);
if (ret < 0)
{
logf("Parse error #1");
logf("%s", strp);
return false;
}
if (ret == 0)
break ;
logf("tag: %d", inst->tagorder[inst->tagorder_count]);
tagtree_lock();
while ( (ret = get_condition(inst)) > 0 ) ;
tagtree_unlock();
if (ret < 0)
return false;
inst->tagorder_count++;
if (get_tag(&type) <= 0 || type != menu_next)
break;
}
return true;
}
static int compare(const void *p1, const void *p2)
{
struct tagentry *e1 = (struct tagentry *)p1;
struct tagentry *e2 = (struct tagentry *)p2;
if (sort_inverse)
return strncasecmp(e2->name, e1->name, MAX_PATH);
return strncasecmp(e1->name, e2->name, MAX_PATH);
}
static int nat_compare(const void *p1, const void *p2)
{
struct tagentry *e1 = (struct tagentry *)p1;
struct tagentry *e2 = (struct tagentry *)p2;
if (sort_inverse)
return strnatcasecmp(e2->name, e1->name);
return strnatcasecmp(e1->name, e2->name);
}
static void tagtree_buffer_event(unsigned short id, void *ev_data)
{
(void)id;
struct tagcache_search tcs;
struct mp3entry *id3 = ((struct track_event *)ev_data)->id3;
bool runtimedb = global_settings.runtimedb;
bool autoresume = global_settings.autoresume_enable;
/* Do not gather data unless proper setting has been enabled. */
if (!runtimedb && !autoresume)
return;
logf("be:%s", id3->path);
while (! tagcache_is_fully_initialized())
yield();
if (!tagcache_find_index(&tcs, id3->path))
{
logf("tc stat: not found: %s", id3->path);
return;
}
if (runtimedb)
{
id3->playcount = tagcache_get_numeric(&tcs, tag_playcount);
if (!id3->rating)
id3->rating = tagcache_get_numeric(&tcs, tag_rating);
id3->lastplayed = tagcache_get_numeric(&tcs, tag_lastplayed);
id3->score = tagcache_get_numeric(&tcs, tag_virt_autoscore) / 10;
id3->playtime = tagcache_get_numeric(&tcs, tag_playtime);
logf("-> %ld/%ld", id3->playcount, id3->playtime);
}
if (autoresume)
{
/* Load current file resume info if not already defined (by
another resume mechanism) */
if (id3->elapsed == 0)
{
id3->elapsed = tagcache_get_numeric(&tcs, tag_lastelapsed);
logf("tagtree_buffer_event: Set elapsed for %s to %lX\n",
str_or_empty(id3->title), id3->elapsed);
}
if (id3->offset == 0)
{
id3->offset = tagcache_get_numeric(&tcs, tag_lastoffset);
logf("tagtree_buffer_event: Set offset for %s to %lX\n",
str_or_empty(id3->title), id3->offset);
}
}
/* Store our tagcache index pointer. */
id3->tagcache_idx = tcs.idx_id+1;
tagcache_search_finish(&tcs);
}
static void tagtree_track_finish_event(unsigned short id, void *ev_data)
{
(void)id;
struct track_event *te = (struct track_event *)ev_data;
struct mp3entry *id3 = te->id3;
long tagcache_idx = id3->tagcache_idx;
if (!tagcache_idx)
{
logf("No tagcache index pointer found");
return;
}
tagcache_idx--;
bool auto_skip = te->flags & TEF_AUTO_SKIP;
bool runtimedb = global_settings.runtimedb;
bool autoresume = global_settings.autoresume_enable;
/* Don't process unplayed tracks, or tracks interrupted within the
first 15 seconds but always process autoresume point */
if (runtimedb && (id3->elapsed == 0
|| (id3->elapsed < 15 * 1000 && !auto_skip)
))
{
logf("not db logging unplayed or skipped track");
runtimedb = false;
}
/* 3s because that is the threshold the WPS uses to rewind instead
of skip backwards */
if (autoresume && (id3->elapsed == 0
|| (id3->elapsed < 3 * 1000 && !auto_skip)))
{
logf("not logging autoresume");
autoresume = false;
}
/* Do not gather data unless proper setting has been enabled and at least
one is still slated to be recorded */
if (!(runtimedb || autoresume))
{
logf("runtimedb gathering and autoresume not enabled/ignored");
return;
}
long lastplayed = tagcache_increase_serial();
if (lastplayed < 0)
{
logf("incorrect tc serial:%ld", lastplayed);
return;
}
if (runtimedb)
{
long playcount;
long playtime;
playcount = id3->playcount + 1;
/* Ignore the last 15s (crossfade etc.) */
playtime = id3->playtime + MIN(id3->length, id3->elapsed + 15 * 1000);
logf("ube:%s", id3->path);
logf("-> %ld/%ld", playcount, playtime);
logf("-> %ld/%ld/%ld", id3->elapsed, id3->length,
MIN(id3->length, id3->elapsed + 15 * 1000));
/* Queue the updates to the tagcache system. */
tagcache_update_numeric(tagcache_idx, tag_playcount, playcount);
tagcache_update_numeric(tagcache_idx, tag_playtime, playtime);
tagcache_update_numeric(tagcache_idx, tag_lastplayed, lastplayed);
}
if (autoresume)
{
unsigned long elapsed = auto_skip ? 0 : id3->elapsed;
unsigned long offset = auto_skip ? 0 : id3->offset;
tagcache_update_numeric(tagcache_idx, tag_lastelapsed, elapsed);
tagcache_update_numeric(tagcache_idx, tag_lastoffset, offset);
logf("tagtree_track_finish_event: Save resume for %s: %lX %lX",
str_or_empty(id3->title), elapsed, offset);
}
}
int tagtree_export(void)
{
struct tagcache_search tcs;
splash(0, str(LANG_CREATING));
if (!tagcache_create_changelog(&tcs))
{
splash(HZ*2, ID2P(LANG_FAILED));
}
return 0;
}
int tagtree_import(void)
{
splash(0, ID2P(LANG_WAIT));
if (!tagcache_import_changelog())
{
splash(HZ*2, ID2P(LANG_FAILED));
}
return 0;
}
static bool parse_menu(const char *filename);
static int parse_line(int n, char *buf, void *parameters)
{
char data[256];
int variable;
static bool read_menu;
int i;
char *p;
(void)parameters;
/* Strip possible <CR> at end of line. */
p = strchr(buf, '\r');
if (p != NULL)
*p = '\0';
logf("parse:%d/%s", n, buf);
/* First line, do initialisation. */
if (n == 0)
{
if (strcasecmp(TAGNAVI_VERSION, buf))
{
logf("Version mismatch");
return -1;
}
read_menu = false;
}
if (buf[0] == '#')
return 0;
if (buf[0] == '\0')
{
if (read_menu)
{
/* End the menu */
read_menu = false;
}
return 0;
}
if (!read_menu)
{
strp = buf;
if (get_tag(&variable) <= 0)
return 0;
switch (variable)
{
case var_format:
if (add_format(strp) < 0)
{
logf("Format add fail: %s", data);
}
break;
case var_include:
if (get_token_str(data, sizeof(data)) < 0)
{
logf("%%include empty");
return 0;
}
if (!parse_menu(data))
{
logf("Load menu fail: %s", data);
}
break;
case var_menu_start:
if (menu_count >= TAGMENU_MAX_MENUS)
{
logf("max menucount reached");
return 0;
}
if (get_token_str(data, sizeof data) < 0)
{
logf("%%menu_start id empty");
return 0;
}
menu = NULL;
for (i = 0; i < menu_count; i++)
{
if (!strcasecmp(menus[i]->id, data))
{
menu = menus[i];
}
}
if (menu == NULL)
{
menus[menu_count] = tagtree_alloc0(sizeof(struct menu_root));
if (!menus[menu_count])
{
logf("tagtree failed to allocate %s", "menu");
return -2;
}
menu = menus[menu_count];
++menu_count;
strlcpy(menu->id, data, MAX_MENU_ID_SIZE);
}
if (get_token_str(menu->title, sizeof(menu->title)) < 0)
{
logf("%%menu_start title empty");
return 0;
}
logf("menu: %s", menu->title);
read_menu = true;
break;
case var_rootmenu:
/* Only set root menu once. */
if (rootmenu >= 0)
break;
if (get_token_str(data, sizeof(data)) < 0)
{
logf("%%rootmenu empty");
return 0;
}
for (i = 0; i < menu_count; i++)
{
if (!strcasecmp(menus[i]->id, data))
{
rootmenu = i;
}
}
break;
}
return 0;
}
if (menu->itemcount >= TAGMENU_MAX_ITEMS)
{
logf("max itemcount reached");
return 0;
}
/* Allocate */
if (menu->items[menu->itemcount] == NULL)
menu->items[menu->itemcount] = tagtree_alloc0(sizeof(struct menu_entry));
if (!menu->items[menu->itemcount])
{
logf("tagtree failed to allocate %s", "menu items");
return -2;
}
tagtree_lock();
if (parse_search(menu->items[menu->itemcount], buf))
menu->itemcount++;
tagtree_unlock();
return 0;
}
static bool parse_menu(const char *filename)
{
int fd;
char buf[1024];
int rc;
if (menu_count >= TAGMENU_MAX_MENUS)
{
logf("max menucount reached");
return false;
}
fd = open(filename, O_RDONLY);
if (fd < 0)
{
logf("Search instruction file not found.");
return false;
}
/* Now read file for real, parsing into si */
rc = fast_readline(fd, buf, sizeof buf, NULL, parse_line);
close(fd);
return (rc >= 0);
}
static void tagtree_unload(struct tree_context *c)
{
int i;
tagtree_lock();
remove_event(PLAYBACK_EVENT_TRACK_BUFFER, tagtree_buffer_event);
remove_event(PLAYBACK_EVENT_TRACK_FINISH, tagtree_track_finish_event);
if (c)
{
tree_lock_cache(c);
struct tagentry *dptr = core_get_data(c->cache.entries_handle);
menu = menus[c->currextra];
if (!menu)
{
logf("tagtree menu doesn't exist");
return;
}
for (i = 0; i < menu->itemcount; i++)
{
dptr->name = NULL;
dptr->newtable = 0;
dptr->extraseek = 0;
dptr++;
}
}
for (i = 0; i < menu_count; i++)
menus[i] = NULL;
menu_count = 0;
for (i = 0; i < format_count; i++)
formats[i] = NULL;
format_count = 0;
core_free(tagtree_handle);
tagtree_handle = 0;
tagtree_buf_used = 0;
tagtree_bufsize = 0;
if (c)
tree_unlock_cache(c);
tagtree_unlock();
if (lock_count > 0)
tagtree_unlock();/* second unlock to enable re-init */
}
void tagtree_init(void)
{
format_count = 0;
menu_count = 0;
menu = NULL;
rootmenu = -1;
tagtree_handle = core_alloc_maximum("tagtree", &tagtree_bufsize, &ops);
if (tagtree_handle < 0)
panicf("tagtree OOM");
/* Use the user tagnavi config if present, otherwise use the default. */
const char* tagnavi_file;
if(file_exists(TAGNAVI_USER_CONFIG))
tagnavi_file = TAGNAVI_USER_CONFIG;
else
tagnavi_file = TAGNAVI_DEFAULT_CONFIG;
if (!parse_menu(tagnavi_file))
{
tagtree_unload(NULL);
return;
}
/* safety check since tree.c needs to cast tagentry to entry */
if (sizeof(struct tagentry) != sizeof(struct entry))
panicf("tagentry(%zu) and entry mismatch(%zu)",
sizeof(struct tagentry), sizeof(struct entry));
if (lock_count > 0)
panicf("tagtree locked after parsing");
/* If no root menu is set, assume it's the first single menu
* we have. That shouldn't normally happen. */
if (rootmenu < 0)
rootmenu = 0;
add_event(PLAYBACK_EVENT_TRACK_BUFFER, tagtree_buffer_event);
add_event(PLAYBACK_EVENT_TRACK_FINISH, tagtree_track_finish_event);
core_shrink(tagtree_handle, core_get_data(tagtree_handle), tagtree_buf_used);
}
static bool show_search_progress(bool init, int count)
{
static int last_tick = 0;
/* Don't show splashes for 1/2 second after starting search */
if (init)
{
last_tick = current_tick + HZ/2;
return true;
}
/* Update progress every 1/10 of a second */
if (TIME_AFTER(current_tick, last_tick + HZ/10))
{
splashf(0, str(LANG_PLAYLIST_SEARCH_MSG), count, str(LANG_OFF_ABORT));
if (action_userabort(TIMEOUT_NOBLOCK))
return false;
last_tick = current_tick;
yield();
}
return true;
}
static int format_str(struct tagcache_search *tcs, struct display_format *fmt,
char *buf, int buf_size)
{
char fmtbuf[20];
bool read_format = false;
unsigned fmtbuf_pos = 0;
int parpos = 0;
int buf_pos = 0;
int i;
memset(buf, 0, buf_size);
for (i = 0; fmt->formatstr[i] != '\0'; i++)
{
if (fmt->formatstr[i] == '%')
{
read_format = true;
fmtbuf_pos = 0;
if (parpos >= fmt->tag_count)
{
logf("too many format tags");
return -1;
}
}
char formatchar = fmt->formatstr[i];
if (read_format)
{
fmtbuf[fmtbuf_pos++] = formatchar;
if (fmtbuf_pos >= sizeof fmtbuf)
{
logf("format parse error");
return -2;
}
if (formatchar == 's' || formatchar == 'd')
{
unsigned space_left = buf_size - buf_pos;
char tmpbuf[MAX_PATH];
char *result;
fmtbuf[fmtbuf_pos] = '\0';
read_format = false;
switch (formatchar)
{
case 's':
if (fmt->tags[parpos] == tcs->type)
{
result = tcs->result;
}
else
{
/* Need to fetch the tag data. */
int tag = fmt->tags[parpos];
if (!tagcache_retrieve(tcs, tcs->idx_id,
(tag == tag_virt_basename ?
tag_filename : tag),
tmpbuf, sizeof tmpbuf))
{
logf("retrieve failed");
return -3;
}
if (tag == tag_virt_basename
&& (result = strrchr(tmpbuf, '/')) != NULL)
{
result++;
}
else
result = tmpbuf;
}
buf_pos +=
snprintf(&buf[buf_pos], space_left, fmtbuf, result);
break;
case 'd':
buf_pos +=
snprintf(&buf[buf_pos], space_left, fmtbuf,
tagcache_get_numeric(tcs, fmt->tags[parpos]));
}
parpos++;
}
}
else
buf[buf_pos++] = formatchar;
if (buf_pos >= buf_size - 1) /* need at least one more byte for \0 */
{
logf("buffer overflow");
return -4;
}
}
buf[buf_pos++] = '\0';
return 0;
}
static struct tagentry* get_entries(struct tree_context *tc)
{
return core_get_data(tc->cache.entries_handle);
}
#ifdef HAVE_TC_RAMCACHE
extern struct tagcache_stat tc_stat;
#endif
static int retrieve_entries(struct tree_context *c, int offset, bool init)
{
struct tagcache_search tcs;
struct display_format *fmt;
int i;
int namebufused = 0;
int total_count = 0;
int special_entry_count = 0;
int level = c->currextra;
int tag;
bool sort = false;
int sort_limit;
int strip;
/* Show search progress straight away if the disk needs to spin up,
otherwise show it after the normal 1/2 second delay */
show_search_progress(
#ifdef HAVE_DISK_STORAGE
#ifdef HAVE_TC_RAMCACHE
tc_stat.ramcache ? true :
#endif
storage_disk_is_active()
#else
true
#endif
, 0);
if (c->currtable == ALLSUBENTRIES)
{
tag = tag_title;
level--;
}
else
tag = csi->tagorder[level];
if (tag == menu_reload)
return RELOAD_TAGTREE;
if (!tagcache_search(&tcs, tag))
return -1;
/* Prevent duplicate entries in the search list. */
tagcache_search_set_uniqbuf(&tcs, uniqbuf, UNIQBUF_SIZE);
if (level || csi->clause_count[0] || TAGCACHE_IS_NUMERIC(tag))
sort = true;
for (i = 0; i < level; i++)
{
if (TAGCACHE_IS_NUMERIC(csi->tagorder[i]))
{
static struct tagcache_search_clause cc;
memset(&cc, 0, sizeof(struct tagcache_search_clause));
cc.tag = csi->tagorder[i];
cc.type = clause_is;
cc.numeric = true;
cc.numeric_data = csi->result_seek[i];
tagcache_search_add_clause(&tcs, &cc);
}
else
{
tagcache_search_add_filter(&tcs, csi->tagorder[i],
csi->result_seek[i]);
}
}
/* because tagcache saves the clauses, we need to lock the buffer
* for the entire duration of the search */
tagtree_lock();
for (i = 0; i <= level; i++)
{
int j;
for (j = 0; j < csi->clause_count[i]; j++)
tagcache_search_add_clause(&tcs, csi->clause[i][j]);
}
current_offset = offset;
current_entry_count = 0;
c->dirfull = false;
fmt = NULL;
for (i = 0; i < format_count; i++)
{
if (formats[i]->group_id == csi->format_id[level])
fmt = formats[i];
}
if (fmt)
{
sort_inverse = fmt->sort_inverse;
sort_limit = fmt->limit;
strip = fmt->strip;
sort = true;
}
else
{
sort_inverse = false;
sort_limit = 0;
strip = 0;
}
/* lock buflib out due to possible yields */
tree_lock_cache(c);
struct tagentry *dptr = core_get_data(c->cache.entries_handle);
if (tag != tag_title && tag != tag_filename)
{
if (offset == 0)
{
dptr->newtable = ALLSUBENTRIES;
dptr->name = str(LANG_TAGNAVI_ALL_TRACKS);
dptr++;
current_entry_count++;
special_entry_count++;
}
if (offset <= 1)
{
dptr->newtable = NAVIBROWSE;
dptr->name = str(LANG_TAGNAVI_RANDOM);
dptr->extraseek = -1;
dptr++;
current_entry_count++;
special_entry_count++;
}
total_count += 2;
}
while (tagcache_get_next(&tcs))
{
if (total_count++ < offset)
continue;
dptr->newtable = NAVIBROWSE;
if (tag == tag_title || tag == tag_filename)
{
dptr->newtable = PLAYTRACK;
dptr->extraseek = tcs.idx_id;
}
else
dptr->extraseek = tcs.result_seek;
fmt = NULL;
/* Check the format */
tagtree_lock();
for (i = 0; i < format_count; i++)
{
if (formats[i]->group_id != csi->format_id[level])
continue;
if (tagcache_check_clauses(&tcs, formats[i]->clause,
formats[i]->clause_count))
{
fmt = formats[i];
break;
}
}
tagtree_unlock();
if (strcmp(tcs.result, UNTAGGED) == 0)
{
if (tag == tag_title) /* Fallback to filename */
{
char *lastname = dptr->name;
dptr->name = core_get_data(c->cache.name_buffer_handle)+namebufused;
if (tagcache_retrieve(&tcs, tcs.idx_id, tag_filename, dptr->name,
c->cache.name_buffer_size - namebufused))
{
namebufused += strlen(dptr->name)+1;
goto entry_skip_formatter;
}
dptr->name = lastname; /* restore last entry if filename failed */
}
tcs.result = str(LANG_TAGNAVI_UNTAGGED);
tcs.result_len = strlen(tcs.result);
tcs.ramresult = true;
}
if (!tcs.ramresult || fmt)
{
dptr->name = core_get_data(c->cache.name_buffer_handle)+namebufused;
if (fmt)
{
int ret = format_str(&tcs, fmt, dptr->name,
c->cache.name_buffer_size - namebufused);
if (ret == -4) /* buffer full */
{
logf("chunk mode #2: %d", current_entry_count);
c->dirfull = true;
sort = false;
break ;
}
else if (ret < 0)
{
logf("format_str() failed");
tagcache_search_finish(&tcs);
tree_unlock_cache(c);
tagtree_unlock();
return 0;
}
else
namebufused += strlen(dptr->name)+1;
}
else
{
namebufused += tcs.result_len;
if (namebufused < c->cache.name_buffer_size)
strcpy(dptr->name, tcs.result);
else
{
logf("chunk mode #2a: %d", current_entry_count);
c->dirfull = true;
sort = false;
break ;
}
}
}
else
dptr->name = tcs.result;
entry_skip_formatter:
dptr++;
current_entry_count++;
if (current_entry_count >= c->cache.max_entries)
{
logf("chunk mode #3: %d", current_entry_count);
c->dirfull = true;
sort = false;
break ;
}
if (init && !tcs.ramsearch)
{
if (!show_search_progress(false, total_count))
{ /* user aborted */
tagcache_search_finish(&tcs);
tree_unlock_cache(c);
tagtree_unlock();
return current_entry_count;
}
}
}
if (sort)
{
struct tagentry *entries = get_entries(c);
qsort(&entries[special_entry_count],
current_entry_count - special_entry_count,
sizeof(struct tagentry),
global_settings.interpret_numbers ? nat_compare : compare);
}
if (!init)
{
tagcache_search_finish(&tcs);
tree_unlock_cache(c);
tagtree_unlock();
return current_entry_count;
}
while (tagcache_get_next(&tcs))
{
if (!tcs.ramsearch)
{
if (!show_search_progress(false, total_count))
break;
}
total_count++;
}
tagcache_search_finish(&tcs);
tree_unlock_cache(c);
tagtree_unlock();
if (!sort && (sort_inverse || sort_limit))
{
splashf(HZ*4, ID2P(LANG_SHOWDIR_BUFFER_FULL), total_count);
logf("Too small dir buffer");
return 0;
}
if (sort_limit)
total_count = MIN(total_count, sort_limit);
if (strip)
{
dptr = get_entries(c);
for (i = special_entry_count; i < current_entry_count; i++, dptr++)
{
int len = strlen(dptr->name);
if (len < strip)
continue;
dptr->name = &dptr->name[strip];
}
}
return total_count;
}
static int load_root(struct tree_context *c)
{
struct tagentry *dptr = core_get_data(c->cache.entries_handle);
int i;
tc = c;
c->currtable = ROOT;
if (c->dirlevel == 0)
c->currextra = rootmenu;
menu = menus[c->currextra];
if (menu == NULL)
return 0;
if (menu->itemcount > c->cache.max_entries)
panicf("%s tree_cache too small", __func__);
for (i = 0; i < menu->itemcount; i++)
{
dptr->name = menu->items[i]->name;
switch (menu->items[i]->type)
{
case menu_next:
dptr->newtable = NAVIBROWSE;
dptr->extraseek = i;
break;
case menu_load:
dptr->newtable = ROOT;
dptr->extraseek = menu->items[i]->link;
break;
}
dptr++;
}
current_offset = 0;
current_entry_count = i;
return i;
}
int tagtree_load(struct tree_context* c)
{
int count;
int table = c->currtable;
c->dirsindir = 0;
if (!table)
{
c->dirfull = false;
table = ROOT;
c->currtable = table;
c->currextra = rootmenu;
}
switch (table)
{
case ROOT:
count = load_root(c);
break;
case ALLSUBENTRIES:
case NAVIBROWSE:
logf("navibrowse...");
cpu_boost(true);
count = retrieve_entries(c, 0, true);
cpu_boost(false);
break;
default:
logf("Unsupported table %d\n", table);
return -1;
}
if (count < 0)
{
if (count != RELOAD_TAGTREE)
splash(HZ, str(LANG_TAGCACHE_BUSY));
else /* unload and re-init tagtree */
{
splash(HZ, str(LANG_WAIT));
tagtree_unload(c);
tagtree_init();
}
c->dirlevel = 0;
count = load_root(c);
}
/* The _total_ numer of entries available. */
c->dirlength = c->filesindir = count;
return count;
}
int tagtree_enter(struct tree_context* c)
{
int rc = 0;
struct tagentry *dptr;
struct mp3entry *id3;
int newextra;
int seek;
int source;
dptr = tagtree_get_entry(c, c->selected_item);
c->dirfull = false;
seek = dptr->extraseek;
if (seek == -1)
{
if(c->filesindir<=2)
return 0;
srand(current_tick);
dptr = (tagtree_get_entry(c, 2+(rand() % (c->filesindir-2))));
seek = dptr->extraseek;
}
newextra = dptr->newtable;
if (c->dirlevel >= MAX_DIR_LEVELS)
return 0;
c->selected_item_history[c->dirlevel]=c->selected_item;
c->table_history[c->dirlevel] = c->currtable;
c->extra_history[c->dirlevel] = c->currextra;
c->pos_history[c->dirlevel] = c->firstpos;
c->dirlevel++;
/* lock buflib for possible I/O to protect dptr */
tree_lock_cache(c);
tagtree_lock();
bool reset_selection = true;
switch (c->currtable) {
case ROOT:
c->currextra = newextra;
if (newextra == ROOT)
{
menu = menus[seek];
c->currextra = seek;
}
else if (newextra == NAVIBROWSE)
{
int i, j;
csi = &menu->items[seek]->si;
c->currextra = 0;
strlcpy(current_title[c->currextra], dptr->name,
sizeof(current_title[0]));
/* Read input as necessary. */
for (i = 0; i < csi->tagorder_count; i++)
{
for (j = 0; j < csi->clause_count[i]; j++)
{
char* searchstring;
if (csi->clause[i][j]->type == clause_logical_or)
continue;
source = csi->clause[i][j]->source;
if (source == source_constant)
continue;
searchstring=csi->clause[i][j]->str;
*searchstring = '\0';
id3 = audio_current_track();
if (source == source_current_path && id3)
{
char *e;
strlcpy(searchstring, id3->path, SEARCHSTR_SIZE);
e = strrchr(searchstring, '/');
if (e)
*e = '\0';
}
else if (source > source_runtime && id3)
{
int k = source-source_runtime;
int offset = id3_to_search_mapping[k].id3_offset;
char **src = (char**)((char*)id3 + offset);
if (*src)
{
strlcpy(searchstring, *src, SEARCHSTR_SIZE);
}
}
else
{
rc = kbd_input(searchstring, SEARCHSTR_SIZE, NULL);
if (rc < 0 || !searchstring[0])
{
tagtree_exit(c);
tree_unlock_cache(c);
tagtree_unlock();
return 0;
}
if (csi->clause[i][j]->numeric)
csi->clause[i][j]->numeric_data = atoi(searchstring);
}
}
}
}
c->currtable = newextra;
break;
case NAVIBROWSE:
case ALLSUBENTRIES:
if (newextra == PLAYTRACK)
{
reset_selection = false;
if (global_settings.party_mode && audio_status()) {
splash(HZ, ID2P(LANG_PARTY_MODE));
break;
}
c->dirlevel--;
/* about to create a new current playlist...
allow user to cancel the operation */
if (!warn_on_pl_erase())
break;
if (tagtree_play_folder(c) >= 0)
rc = 2;
break;
}
c->currtable = newextra;
csi->result_seek[c->currextra] = seek;
if (c->currextra < csi->tagorder_count-1)
c->currextra++;
else
c->dirlevel--;
/* Update the statusbar title */
strlcpy(current_title[c->currextra], dptr->name,
sizeof(current_title[0]));
break;
default:
c->dirlevel--;
break;
}
if (reset_selection)
{
c->selected_item=0;
gui_synclist_select_item(&tree_lists, c->selected_item);
}
tree_unlock_cache(c);
tagtree_unlock();
return rc;
}
void tagtree_exit(struct tree_context* c)
{
c->dirfull = false;
if (c->dirlevel > 0)
c->dirlevel--;
c->selected_item=c->selected_item_history[c->dirlevel];
gui_synclist_select_item(&tree_lists, c->selected_item);
c->currtable = c->table_history[c->dirlevel];
c->currextra = c->extra_history[c->dirlevel];
c->firstpos = c->pos_history[c->dirlevel];
}
int tagtree_get_filename(struct tree_context* c, char *buf, int buflen)
{
struct tagcache_search tcs;
int extraseek = tagtree_get_entry(c, c->selected_item)->extraseek;
if (!tagcache_search(&tcs, tag_filename))
return -1;
if (!tagcache_retrieve(&tcs, extraseek, tcs.type, buf, buflen))
{
tagcache_search_finish(&tcs);
return -2;
}
tagcache_search_finish(&tcs);
return 0;
}
static bool insert_all_playlist(struct tree_context *c, int position, bool queue)
{
struct tagcache_search tcs;
int i;
char buf[MAX_PATH];
int from, to, direction;
int files_left = c->filesindir;
cpu_boost(true);
if (!tagcache_search(&tcs, tag_filename))
{
splash(HZ, ID2P(LANG_TAGCACHE_BUSY));
cpu_boost(false);
return false;
}
if (position == PLAYLIST_REPLACE)
{
if (playlist_remove_all_tracks(NULL) == 0)
position = PLAYLIST_INSERT_LAST;
else
{
cpu_boost(false);
return false;
}
}
from = 0;
to = c->filesindir;
direction = 1;
for (i = from; i != to; i += direction)
{
/* Count back to zero */
if (!show_search_progress(false, files_left--))
break;
if (!tagcache_retrieve(&tcs, tagtree_get_entry(c, i)->extraseek,
tcs.type, buf, sizeof buf))
{
continue;
}
if (playlist_insert_track(NULL, buf, position, queue, false) < 0)
{
logf("playlist_insert_track failed");
break;
}
yield();
if (position == PLAYLIST_INSERT_FIRST)
{
position = PLAYLIST_INSERT;
}
}
playlist_sync(NULL);
tagcache_search_finish(&tcs);
cpu_boost(false);
return true;
}
bool tagtree_insert_selection_playlist(int position, bool queue)
{
char buf[MAX_PATH];
int dirlevel = tc->dirlevel;
int newtable;
show_search_progress(
#ifdef HAVE_DISK_STORAGE
storage_disk_is_active()
#else
true
#endif
, 0);
/* We need to set the table to allsubentries. */
newtable = tagtree_get_entry(tc, tc->selected_item)->newtable;
/* Insert a single track? */
if (newtable == PLAYTRACK)
{
if (tagtree_get_filename(tc, buf, sizeof buf) < 0)
{
logf("tagtree_get_filename failed");
return false;
}
playlist_insert_track(NULL, buf, position, queue, true);
return true;
}
if (newtable == NAVIBROWSE)
{
tagtree_enter(tc);
tagtree_load(tc);
newtable = tagtree_get_entry(tc, tc->selected_item)->newtable;
}
else if (newtable != ALLSUBENTRIES)
{
logf("unsupported table: %d", newtable);
return false;
}
/* Now the current table should be allsubentries. */
if (newtable != PLAYTRACK)
{
tagtree_enter(tc);
tagtree_load(tc);
newtable = tagtree_get_entry(tc, tc->selected_item)->newtable;
/* And now the newtable should be playtrack. */
if (newtable != PLAYTRACK)
{
logf("newtable: %d !!", newtable);
tc->dirlevel = dirlevel;
return false;
}
}
if (tc->filesindir <= 0)
splash(HZ, ID2P(LANG_END_PLAYLIST));
else
{
logf("insert_all_playlist");
if (!insert_all_playlist(tc, position, queue))
splash(HZ*2, ID2P(LANG_FAILED));
}
/* Finally return the dirlevel to its original value. */
while (tc->dirlevel > dirlevel)
tagtree_exit(tc);
tagtree_load(tc);
return true;
}
static int tagtree_play_folder(struct tree_context* c)
{
if (playlist_create(NULL, NULL) < 0)
{
logf("Failed creating playlist\n");
return -1;
}
if (!insert_all_playlist(c, PLAYLIST_INSERT_LAST, false))
return -2;
if (global_settings.playlist_shuffle)
c->selected_item = playlist_shuffle(current_tick, c->selected_item);
if (!global_settings.play_selected)
c->selected_item = 0;
gui_synclist_select_item(&tree_lists, c->selected_item);
playlist_start(c->selected_item, 0, 0);
playlist_get_current()->num_inserted_tracks = 0; /* make warn on playlist erase work */
return 0;
}
static struct tagentry* tagtree_get_entry(struct tree_context *c, int id)
{
struct tagentry *entry;
int realid = id - current_offset;
/* Load the next chunk if necessary. */
if (realid >= current_entry_count || realid < 0)
{
cpu_boost(true);
if (retrieve_entries(c, MAX(0, id - (current_entry_count / 2)),
false) < 0)
{
logf("retrieve failed");
cpu_boost(false);
return NULL;
}
realid = id - current_offset;
cpu_boost(false);
}
entry = get_entries(c);
return &entry[realid];
}
char* tagtree_get_entry_name(struct tree_context *c, int id,
char* buf, size_t bufsize)
{
struct tagentry *entry = tagtree_get_entry(c, id);
if (!entry)
return NULL;
strlcpy(buf, entry->name, bufsize);
return buf;
}
char *tagtree_get_title(struct tree_context* c)
{
switch (c->currtable)
{
case ROOT:
return menu->title;
case NAVIBROWSE:
case ALLSUBENTRIES:
return current_title[c->currextra];
}
return "?";
}
int tagtree_get_attr(struct tree_context* c)
{
int attr = -1;
switch (c->currtable)
{
case NAVIBROWSE:
if (csi->tagorder[c->currextra] == tag_title)
attr = FILE_ATTR_AUDIO;
else
attr = ATTR_DIRECTORY;
break;
case ALLSUBENTRIES:
attr = FILE_ATTR_AUDIO;
break;
default:
attr = ATTR_DIRECTORY;
break;
}
return attr;
}
int tagtree_get_icon(struct tree_context* c)
{
int icon = Icon_Folder;
if (tagtree_get_attr(c) == FILE_ATTR_AUDIO)
icon = Icon_Audio;
return icon;
}